\hypertarget{BuckleyLeverett1D_8cpp}{
\subsection{Examples/09FlowInPorousMedia/BuckleyLeverett1D.cpp File Reference}
\label{BuckleyLeverett1D_8cpp}\index{Examples/09FlowInPorousMedia/BuckleyLeverett1D.cpp@{Examples/09FlowInPorousMedia/BuckleyLeverett1D.cpp}}
}


Two phase flow in porous media in 1D.  


\subsubsection*{Functions}
\begin{DoxyCompactItemize}
\item 
int \hyperlink{BuckleyLeverett1D_8cpp_ae66f6b31b5ad750f1fe042a706a4e3d4}{main} ()
\end{DoxyCompactItemize}


\subsubsection{Detailed Description}
\begin{DoxyParagraph}{Description}
This code solves the two phase flow in porous media in 1D, the equations are posed in pressure-\/saturation formulation:
\end{DoxyParagraph}
These equation are solved using the IMPES algorithm. The domain of study is the interval $ x \in [0,300 m] $, and is initially filled with oil. Then, water is injected on the left side and we study the traveling front between oil and water.

\begin{DoxyParagraph}{Compiling and running}
Modify the variables BASE and BLITZ in the file {\ttfamily tuna-\/cfd-\/rules.in} according to your installation and then type the next commands: \begin{DoxyVerb}
   % make
   % ./BuckleyLeverett1D  \end{DoxyVerb}

\end{DoxyParagraph}
\begin{DoxyAuthor}{Author}
Luis M. de la Cruz \mbox{[} Mon Mar 17 08:47:37 GMT 2010 \mbox{]} 
\end{DoxyAuthor}


Definition in file \hyperlink{BuckleyLeverett1D_8cpp_source}{BuckleyLeverett1D.cpp}.



\subsubsection{Function Documentation}
\hypertarget{BuckleyLeverett1D_8cpp_ae66f6b31b5ad750f1fe042a706a4e3d4}{
\index{BuckleyLeverett1D.cpp@{BuckleyLeverett1D.cpp}!main@{main}}
\index{main@{main}!BuckleyLeverett1D.cpp@{BuckleyLeverett1D.cpp}}
\paragraph[{main}]{\setlength{\rightskip}{0pt plus 5cm}int main (
\begin{DoxyParamCaption}
{}
\end{DoxyParamCaption}
)}}
\label{BuckleyLeverett1D_8cpp_ae66f6b31b5ad750f1fe042a706a4e3d4}






Definition at line 43 of file BuckleyLeverett1D.cpp.

